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Respiratory Biomechanics

Engineering Analysis of Structure and Function

  • Mary A. Farrell Epstein
  • James R. Ligas
Conference proceedings

Table of contents

  1. Front Matter
    Pages i-xvi
  2. Lung Tissue Mechanics

    1. Front Matter
      Pages 1-1
    2. James R. Ligas
      Pages 3-18
    3. E. H. Oldmixon
      Pages 19-33
    4. Robert R. Mercer
      Pages 34-38
    5. Stephen J. Lai-Fook
      Pages 39-43
    6. James R. Ligas
      Pages 44-51
  3. Respiratory Fluid Mechanics and Transport

  4. Pulmonary Circulation

    1. Front Matter
      Pages 107-107
    2. R. T. Yen, D. Tai, Z. Rong, B. Zhang
      Pages 109-116
    3. J. S. Lee, L. P. Lee
      Pages 117-122
    4. Wiltz W. Wagner Jr.
      Pages 123-129
    5. John H. Linehan, Christopher A. Dawson
      Pages 137-144
  5. The Use of Mathematics and Advanced Technology to Measure and Evaluate Lung Fluid Exchange and Solute Balance

    1. Front Matter
      Pages 145-145
    2. D. P. Schuster, J. Markham, J. Kaplan, T. Warfel, M. Mintun
      Pages 147-154
    3. Robert J. Roselli, Valerie J. Abernathy, William R. Riddle, Richard E. Parker, N. Adriene Pou
      Pages 155-161
    4. B. T. Peterson, M. L. Collins, J. C. Connelly, J. W. McLarty, D. Holiday, L. D. Gray
      Pages 162-168
    5. L. Oppenheimer, E. Furuya, K. P. Landolfo, D. Huebert
      Pages 169-175
    6. James E. McNamee
      Pages 176-182
  6. Integrating Mechanics and Transport in Assessing Respiratory Function

About these proceedings

Introduction

This proceedings volume brings together the invited papers from the Respiratory Biomechanics Symposium of the First World Congress of Biomechanics held in La Jolla, California from August 3D-September 4, 1990. The respiratory system offers many opportunities to apply the different branches of traditional mechanics. Tissue defonnations and stresses during lung expansion can be analyzed using the principles of solid mechanics. Fluid mechanical problems in the lung are unique. There is the matched distribution of two fluids, gas and blood, in two beautifully intertwined, branched conduit systems. The reversing flow of the gas phase presents different problems than the pulsatile flow of the non-Newtonian fluid that is the blood. On the smaller scale, there is the flux of fluids and solutes across the capillary membrane. Finally, there is the problem of coupling fluid and solid mechanics to understand the overall behavior of the respiratory system. In this symposium, we have chosen to address the basic processes that contribute to the gas and fluid exchange functions of the lung. Section 1, Lung Tissue Mechanics, provides an historical background and, then, presents more recent work on the structure of the lung parenchyma, the mechanics of the tissue, and the effects of the bounding membrane, the visceral pleura.

Keywords

biomechanics blood vessel endothelium mechanics molecule positron emission tomography (PET) tissue tissue mechanics tomography

Editors and affiliations

  • Mary A. Farrell Epstein
    • 1
  • James R. Ligas
    • 2
  1. 1.Department of PharmacologyUniversity of Connecticut Health CenterFarmingtonUSA
  2. 2.Department of SurgeryUniversity of ConnecticutFarmingtonUSA

Bibliographic information